Modeling the Transient Changes
in the Soret-Resonant Raman
Intensities of Hemoglobin During
The R→ T Transition
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We have performed resonance Raman (RR) intensity calculations of the Soret-resonant Raman spectra of Ni and Zn Porphine to investigate observed core size intensity differences in the time-resolved Soret-resonant Raman (RR) spectra of hemoglobin. It was found that the metalloporphine intensities mainly derive from the expansion of the Cα—Cm and Cβ—Cβ bonds in the excited state, and that the observed differences are mainly due to the larger core-sized heme having a decreased Cα—Cm force constant and larger excited state porphyrin ring expansion.
2001 ◽
Vol 115
(13)
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pp. 6106-6114
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2002 ◽
Vol 75
(5)
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pp. 1057-1064
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2001 ◽
Vol 337
(1-3)
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pp. 224-230
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1995 ◽
Vol 117
(20)
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pp. 5579-5585
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1990 ◽
Vol 169
(1-2)
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pp. 85-88
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2014 ◽
Vol 16
(39)
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pp. 21721-21731
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1986 ◽
Vol 146
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pp. 91-99
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2010 ◽
Vol 254
(21-22)
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pp. 2505-2518
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